直接InhA抑制剂结合的底物结合环的柔韧性表征。

Q4 Pharmacology, Toxicology and Pharmaceutics International Journal of Computational Biology and Drug Design Pub Date : 2013-01-01 Epub Date: 2013-09-30 DOI:10.1504/IJCBDD.2013.056795
Vivek Kumar, M Elizabeth Sobhia
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引用次数: 8

摘要

inhA的底物结合环(SBL)在与直接inhA抑制剂(DIIs)结合时表现出构象变化。关于DII与inhA结合的构象变化及其重要性的知识以前没有被探索过。本研究最初的重点是研究SBL在选定的inhA晶体结构中的构象变化。这些构象变化是用SBL从晶体结构中的静态铰链区Ile194的旋转角度来测量的。在SBL的大多数开放构象和封闭构象之间观察到最大角度差约41°。为了深入了解这些构象变化,进行了与直接抑制剂(Genz10850)和载脂蛋白结合的inhA的比较分子动力学模拟。在Genz10850结合过程中,观察到SBL的旋转角度(~ 24°至~ 12°)发生了相当大的变化,导致封闭的构象,静电能量持续增加,而载脂蛋白没有观察到变化。因此,在抑制剂的影响下,SBL的构象变化可以作为增强抑制剂与inhA结合的参数,以筛选有效的dii。
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Characterisation of the flexibility of substrate binding loop in the binding of direct InhA inhibitors.

The substrate binding loop (SBL) of inhA shows conformational changes on binding of direct inhA inhibitors (DIIs). The knowledge of conformational changes and its importance in binding of DII to inhA has not been explored before. This study initially focused on studying the conformational changes of SBL in selected inhA crystal structures. These conformational changes are measured as angle of rotation for SBL from the static hinge region, Ile194, in the crystal structures. The maximal angle difference of ∼41° was observed between most open and closed conformation of SBL. To gain insights into these conformational changes, comparative molecular dynamics simulations of inhA bound with a direct inhibitor (Genz10850) and apoprotein were performed. A considerable variation in the angle of rotation (∼24° to ∼12°) for the SBL which led to the closed conformation was observed during binding of Genz10850 with a consistent increase in electrostatic energy, whereas no change was observed in apoprotein. Hence, conformational changes in the SBL under the influence of inhibitor can be utilised as a parameter for enhanced binding inhibitor with inhA to screen the potent DIIs.

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来源期刊
International Journal of Computational Biology and Drug Design
International Journal of Computational Biology and Drug Design Pharmacology, Toxicology and Pharmaceutics-Drug Discovery
CiteScore
1.00
自引率
0.00%
发文量
8
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